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Considering distance measures in Statistics

Christos P. Kitsos
Christos P. Kitsos
 e 
Constantinos-Symeon Nisiotis
Constantinos-Symeon Nisiotis
   | 30 giu 2022
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Pubblicato online: 30 giu 2022
Pagine: 65 - 75
DOI: https://doi.org/10.2478/bile-2022-0006
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© 2022 Christos P. Kitsos et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Bhattacharyya A. (1943): On a measure of divergence between two statistical populations defined by their probability distributions, Bull. Calcutta Math. Soc. 35, 99–110. Search in Google Scholar

Blyth R.C. (1970): On the Inference and Decision Models of Statistics. The Annals of Mathematical Statistics 41(3), 1034–1058.10.1214/aoms/1177696980 Search in Google Scholar

Comber A., Chi K., Huy Q.M., Nguyen Q., Lu B., Phe H.H., Harris P. (2020): Distance metric choice can both reduce and induce collinearity in geographically weighted regression, Environ. Plan. B Urban Anal. City Sci, 47, 489–507.10.1177/2399808318784017 Search in Google Scholar

Cover T.M., Thomas J.A. (1991): Elements of Information Theory, Wiley, New York.10.1002/0471200611 Search in Google Scholar

Darling D.A. (1957): The Kolmogorov - Smirnov, Gramer - Von Miss tests, Ann Math Stat. 28, 283–838.10.1214/aoms/1177706788 Search in Google Scholar

Fisher R.A. (1922): On the mathematical foundation of theoretical statistics, Phil. Trans. Roy. Soc. London, series A 22, 165–177. Search in Google Scholar

Geoghegan D.B. (2008): The Histographic conceptualization of information: A Critical Survey, IEEE Ann. Of History of Computing 30, 66–81.10.1109/MAHC.2008.9 Search in Google Scholar

Iliopoulou P., Kitsos C. (2019): Statistical applications in Geography: Spatial Analysis, in Contemporary Essays in Social Sciences & Geography: Theory and Policies, Korres, G., Kourliouros, E., and Kokkinou, A. eds., University of the Aegean, 212–224 (in Greek). Search in Google Scholar

Kamps U. (1989): Hellinger distance and α-entropy in one parameter class of density functions, Stat. Papers, 30, 263–269.10.1007/BF02924332 Search in Google Scholar

Kitsos C., Iliopoulou P. (2021): Distance measures in spatial statistics, in Social Sciences & Geography: Theory, Methods and Spatial Analysis techniques, Kalabokidis, K., Korres, G., Soulakellis, N., and Feidas, H. eds. University of the Aegean, 96–108 (in Greek). Search in Google Scholar

Kitsos C., Iliopoulou P. (2022): Adopting Information Distance Measures for Geographical Data Analysis. J. of Regional and Socio-Economic Issues, Vol 12(1), 6–27. Search in Google Scholar

Kitsos C., Toulias L.T. (2010): New information measures for the generalized normal distribution, Information 1, 13–27.10.3390/info1010013 Search in Google Scholar

Kitsos C., Toulias L.T. (2017): Hellinger distance between generalized normal distributions, British Journal of Mathematics and Computer Science 21, 1–16.10.9734/BJMCS/2017/32229 Search in Google Scholar

Kitsos C., Tavoularis K.N. (2009): Logarithmic Sobolev inequalities for information measures, IEEE Transactions on Information Theory 55 (2009), 2554–2561.10.1109/TIT.2009.2018179 Search in Google Scholar

Kitsos C., Sotiropoulos M. (2009). Distance methods for bioassays, Biometrie und Medizinische Informatik Greifswalder Seminarberichte 15, 55–74. Search in Google Scholar

Kolmogorov A. (1933): Sulla determinazione empirica di una legge di distribuzione, G. Ist. Ital. Attuari 4, 83–91. Search in Google Scholar

Kullback S., Leibler A.R. (1951): On Information and sufficiency, Ann. Math. Statist. 22 (1951), 79–86.10.1214/aoms/1177729694 Search in Google Scholar

Lu B., Charlton M., Harris P., Fotheringham A.S. (2014): Geographically weighted regression with a non-Euclidean distance metric: a case study using hedonic house price data, Int J Geogr. Inf. Sci. 28, 660–681.10.1080/13658816.2013.865739 Search in Google Scholar

Mahalanobis C.P. (1936): On the generalized distance in Statistics, Proc. Nat. Inst. of Sciences of India, 2. Search in Google Scholar

Nielsen F. (2011): Chernoff information of exponential families. IEEE Signal Processing Letters 20.3, 269 – 27210.1109/LSP.2013.2243726 Search in Google Scholar

Saville J.D., Wood R.G. (1991): Statistical Methods : The Geometric Approach. Springer-Verlag.10.1007/978-1-4612-0971-3 Search in Google Scholar

Schervish J.M. (1995): Theory of Statistics, Springer.10.1007/978-1-4612-4250-5 Search in Google Scholar

Shanon C.E. (1948): A mathematical theory of communication, Bell Syst. Tech. J. 27, 379–423, 623–656.10.1002/j.1538-7305.1948.tb00917.x Search in Google Scholar

Shapiro S.S., Wilks M.B. (1965): An analysis of variance test for normality (complete samples), Biometrika 65, 591–611.10.1093/biomet/52.3-4.591 Search in Google Scholar

Smirnov N. (1948): Table for estimating the goodness of fit of empirical distributions, Annals of Math. Stat. 19, 279–281.10.1214/aoms/1177730256 Search in Google Scholar

Takasi S., Takashi S. (2011): Applied Analysis: Mathematical Methods in Natural Science, 2d Edition, Imperial College Press. Search in Google Scholar

Wilson R., Martinez T. (1997): Improved heterogeneous distance functions, J. of Artif. Intell. Res. 6, 1–37.10.1613/jair.346 Search in Google Scholar

Wolfowitz J. (1957): The minimum distance method, Ann. Math. Stat 28, 75–87.10.1214/aoms/1177707038 Search in Google Scholar

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